《磁學和磁性材料(Magnetism and Magnetic Materials)(英文影印版)》是2014年出版的圖書,作者是(愛)科埃 (J. M. D. Coey)。
基本介紹
- 中文名:磁學和磁性材料(Magnetism and Magnetic Materials)(英文影印版)
- 作者:(愛)科埃 (J. M. D. Coey)
- 出版時間:2014年11月19日
- 頁數:632 頁
- ISBN:978-7-301-24979-6
- 定價:107 元
- 開本:大32開
- 裝幀:平裝
出版背景,章節目錄,
出版背景
本書是影印版英文專著,原書由劍橋大學出版社於2009年出版。本書包含了磁學和磁性材料方面的基本物理概念、實驗方法和套用,內容豐富而系統,著重強調了從納米尺度到天體物理尺度的實際計算方法和數值量。本書提供了豐富而實用的磁材料信息,詳細介紹了多種主要的磁材料。 本書適合物理、材料等研究方向的科研工作者和研究生閱讀。
章節目錄
List of tables of numerical data ix Preface xi Acknowledgements xiii
1 Introduction 1
1.1 A brief history of magnetism 1
1.2 Magnetism and hysteresis 7
1.3 Magnet applications 13
1.4 Magnetism, the felicitous science 19
2 Magnetostatics 24
2.1 The magnetic dipole moment 24
2.2 Magnetic fields 28
2.3 Maxwell's equations 41
2.4 Magnetic field calculations 43
2.5 Magnetostatic energy and forces 50
3 Magnetism of electrons 62
3.1 Orbital and spin moments 63
3.2 Magnetic field effects 74
3.3 Theory of electronic magnetism 87
3.4 Magnetism of electrons in solids 92
4 Magnetism of localized electrons on the atom 97
4.1 The hydrogenic atom and angular momentum 97
4.2 The many-electron atom 100
4.3 Paramagnetism 106
4.4 Ions in solids; crystal-field interactions 114
5 Ferromagnetism and exchange 128
5.1 Mean field theory 129
5.2 Exchange interactions 135
5.3 Band magnetism 144
5.4 Collective excitations 161
5.5 Anisotropy 168
5.6 Ferromagnetic phenomena 174
6 Antiferromagnetism and other magnetic order 195
6.1 Molecular field theory of antiferromagnetism 196
6.2 Ferrimagnets 200
6.3 Frustration 203
6.4 Amorphous magnets 209
6.5 Spin glasses 218
6.6 Magnetic models 221
7 Micromagnetism, domains and hysteresis 231
7.1 Micromagnetic energy 234
7.2 Domain theory 239
7.3 Reversal, pinning and nucleation 244
8 Nanoscale magnetism 264
8.1 Characteristic length scales 265
8.2 Thin films 267
8.3 Thin-film heterostructures 274
8.4 Wires and needles 293
8.5 Small particles 295
8.6 Bulk nanostructures 299
9 Magnetic resonance 305
9.1 Electron paramagnetic resonance 307
9.2 Ferromagnetic resonance 313
9.3 Nuclear magnetic resonance 318
9.4 Other methods 329
10 Experimental methods 333
10.1 Materials growth 333
10.2 Magnetic fields 340
10.3 Atomic-scale magnetism 343
10.4 Domain-scale measurements 353
10.5 Bulk magnetization measurements 360
10.6 Excitations 368
10.7 Numerical methods 370
11 Magnetic materials 374
11.1 Introduction 374
11.2 Iron group metals and alloys 384
11.3 Rare-earth metals and intermetallic compounds 398
11.4 Interstitial compounds 407
11.5 Oxides with ferromagnetic interactions 410
11.6 Oxides with antiferromagnetic interactions 417
11.7 Miscellaneous materials 432
12 Applications of soft magnets 439
12.1 Losses 441
12.2 Soft magnetic materials 448
12.3 Static applications 453
12.4 Low-frequency applications 454
12.5 High-frequency applications 457
13 Applications of hard magnets 464
13.1 Magnetic circuits 466
13.2 Permanent magnet materials 469
13.3 Static applications 473
13.4 Dynamic applications with mechanical recoil 481
13.5 Dynamic applications with active recoil 485
13.6 Magnetic microsystems 491
14 Spin electronics and magnetic recording 494
14.1 Spin-polarized currents 497
14.2 Materials for spin electronics 515
14.3 Magnetic sensors 516
14.4 Magnetic memory 522
14.5 Other topics 525
14.6 Magnetic recording 530